Mems microphone device and method for making same

ABSTRACT

The present invention discloses a MEMS microphone device and its manufacturing method. The MEMS microphone device includes: a substrate including a first cavity; a MEMS device region above the substrate, wherein the MEMS device region includes a metal layer, a via layer, an insulating material region and a second cavity; a mask layer above the MEMS device region; a first lid having at least one opening communicating with the second cavity, the first lid being fixed above the mask layer; and a second lid fixed under the substrate.

CROSS REFERENCE

The present invention claims priority to TW 100112696, filed on Apr. 12,2011.

BACKGROUND OF THE INVENTION

1. Field of Invention

The present invention relates to a Micro-Electro-Mechanical System(MEMS) microphone device and its manufacturing method.

2. Description of Related Art

FIG. 1 shows a MEMS microphone device 10 disclosed in U.S. publicationNo. 2008/0175418. As shown in FIG. 1, the MEMS microphone device 10includes: a substrate 11, a back-plate 12, a flexible diaphragm 13,through-holes 14, backside cavity 15, and a stationary portion 16. Inone embodiment, the flexible diaphragm 13 may include a material of, forexample, polysilicon, and the back-plate 12 may include a material of,for example, single crystal silicon. The back-plate 12 has thethrough-holes 14 communicating with the backside cavity 15, and theflexible diaphragm 13 is connected with the stationary portion 16 bysprings. When a voice signal vibrates the flexible diaphragm 13, acapacitance is changed accordingly. Then, the changed capacitance isconverted to an electronic signal by a circuit. In this prior art, theMEMS microphone device 10 still requires a series of complicated packageprocesses so that a product having the MEMS microphone device 10requires a large area and is difficult to shrink.

In addition, similar to the U.S. publication No. 2008/0175418, the MEMSmicrophone devices disclosed in U.S. publication No. 2008/0175418, U.S.publication No. US 2008/0175418 and U.S. Pat. No. 7,221,767 also requirea series of complicated package processes so that a product having oneof the MEMS microphone devices requires a large area and is difficult toshrink.

In the view of above, to overcome the drawback in the prior art, thepresent invention proposes a MEMS microphone device and itsmanufacturing method which improve wafer-level manufacturing process tosimplify package process and save room so that the whole device canachieve chip size package (CSP).

SUMMARY OF THE INVENTION

An objective of the present invention is to provide a method formanufacturing a MEMS microphone device.

Another objective of the present invention is to provide a MEMSmicrophone device.

To achieve the foregoing objectives, in one perspective of the presentinvention, it provides a method for manufacturing a MEMS microphonedevice, comprising: providing a substrate; forming at least one metallayer, at least one via layer and an insulating material region abovethe substrate, the at least one metal layer including a top metal layer;forming a mask layer above the top metal layer; removing a portion ofthe mask layer to expose a portion of the insulating material region;fixing a first lid above the mask layer, the first lid having at leastone opening; etching the backside of the substrate to form a firstcavity; fixing a second lid under the substrate; and removing a portionof the insulating material region to form a second cavity, wherein thesecond cavity communicates with the first cavity and the at least oneopening, and wherein the second cavity, the at least one metal layer,the at least one via layer, and the insulating material region togetherform a MEMS device region.

In the foregoing method, the first cavity may be formed by etching thebackside of the substrate with inductively coupled plasma (ICP).

In the foregoing method, the first lid and the second lid may be fixedby means of eutectic, glass frit, epoxy or solder.

The foregoing method may further include providing at least one wirethrough the substrate and the second lid by a through-silicon via (TSV)process, or may further include providing at least one wire following apath along a lateral side of the substrate and extending to the bottomsurface of the second lid by a T-contact process.

In the foregoing method, a portion of the insulating material region maybe removed by HF vapor to form a second cavity.

In another perspective of the present invention, it provides a MEMSmicrophone device, comprising: a substrate including a first cavity; aMEMS device region above the substrate, wherein the MEMS device regionincludes at least one metal layer, at least one via layer, an insulatingmaterial region and a second cavity; a mask layer above the MEMS deviceregion; a first lid having at least one opening communicating with thesecond cavity, the first lid being fixed above the mask layer; and asecond lid fixed under the substrate.

The foregoing MEMS microphone device may further include an adhesionlayer between the first lid and the MEMS device region.

In the foregoing MEMS microphone device, the first lid and the secondlid may be formed by a silicon wafer.

The foregoing MEMS microphone device may further include at least onewire, wherein the at least one wire goes through the substrate and thesecond lid, or follows a path along a lateral side of the substrate andextends to a bottom surface of the second lid.

The objectives, technical details, features, and effects of the presentinvention will be better understood with regard to the detaileddescription of the embodiments below, with reference to the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a MEMS microphone device disclosed in U.S. publication No.2008/0175418.

FIG. 2 shows, by cross-section view, a first embodiment of the presentinvention.

FIGS. 3A-3I show manufacturing process steps for an embodiment of theMEMS microphone device according to the present invention.

FIG. 4 shows, by cross-section view, a second embodiment of the presentinvention.

FIG. 5 shows, by cross-section view, a third embodiment of the presentinvention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

The drawings as referred to throughout the description of the presentinvention are for illustration only, to show the interrelations betweenthe layers/parts, but not drawn according to actual scale.

FIG. 2 shows, by cross-section view, a first embodiment of the presentinvention. As shown in FIG. 2, a MEMS microphone device 20 includes: asubstrate 21, a MEMS device region 22, a mask layer 23, an adhesionlayer 24, a first lid 25, a second lid 26, and wires 27. In the MEMSmicrophone device 20, the substrate 21 includes a first cavity 21 awhich is not limited to the shape shown in the figure. The MEMS deviceregion 22 is formed above the substrate 21 and includes metal layers 22a, via layers 22 b, an insulating material region 22 c and a secondcavity 22 d formed inside the MEMS device region 22, wherein the numbersof the metal layers 22 a and via layers 22 b may respectively besingular or plural. The metal layers 22 a include a material of, forexample but not limited to, aluminum; the via layers 22 b include amaterial of, for example but not limited to, tungsten; the insulatingmaterial region 22 c includes a material of, for example but not limitedto, silicon oxide. In addition, the second cavity 22 d communicates withthe first cavity 21 a so that the MEMS device region 22 is responsive toacoustic pressure. The mask layer 23 is provided above the MEMS deviceregion 22. The first lid 25 is fixed above the mask layer 23 and has atleast one opening communicating with the second cavity 22 d and thefirst cavity 21 a, wherein the first lid 25 is formed by, for examplebut not limited to, a silicon wafer. In this embodiment, an adhesionlayer 24 is provided between the first lid 25 and the mask layer 23 forfixing the first lid 25, but the adhesion layer 24 is not absolutelyrequired if the first lid 25 is fixed by other means. The second lid 26is fixed under the substrate 21 and is formed by, for example but notlimited to, a silicon wafer. The wires 27 go through the substrate 21and the second lid 26 for transmitting signals from the MEMS deviceregion 22 to the outside of the MEMS microphone device 20.

FIGS. 3A-3H show manufacturing process steps for the MEMS microphonedevice 20, as the following: First, as shown in FIG. 3A, the substrate21 is provided, and the metal layers 22 a, the via layers 22 b, theinsulating material region 22 c and the mask layer 23 are formed abovethe substrate 21. Second, as shown in FIG. 3B, a portion of the masklayer 23 and the surface of the insulating material region 22 c areremoved. Next, as shown in FIG. 3C, the first lid 25 is fixed above themask layer 23 by means of, for example but not limited to, eutectic,glass frit, epoxy or solder, wherein an etch stop layer 25 a is formedunder the first lid 25, and the adhesion layer 24 is formed between thefirst lid 25 and the mask layer 23. Next, as shown in FIG. 3D, thebackside of the substrate 21 is etched by, for example but not limitedto, inductively coupled plasma (ICP) for forming the first cavity 21 a.Next, as shown in FIG. 3E, the second lid 26 is fixed under thesubstrate 21 by means of, for example but not limited to, eutectic,glass frit, epoxy or solder,. Next, as shown in FIG. 3F, the wires 27going through the substrate 21 and the second lid 26 are formed by athrough-silicon via (TSV) process, for transmitting the signals from theMEMS device region 22 to the outside of the MEMS microphone device 20.Next, as shown in FIG. 3G, the first lid 25 is etched by, for examplebut not limited to, ICP for forming openings . Finally, as shown in FIG.3H, the etch stop layer 25 a and a portion of the insulating materialregion 22 c are removed by, for example, HF vapor for forming the secondcavity 22 d, wherein the second cavity 22 d communicates with the firstcavity 21 a and the openings of the first lid 25, and wherein the secondcavity 22 d, the metal layers 22 a, the via layer 22 b, and theinsulating material region 22 c together form a MEMS device region 22.

Please refer to FIG. 31 which describes another way for manufacturingthe MEMS microphone device 20. In this figure, the first lid 25 is notfixed above the substrate 21 in an early stage of the process, butinstead, it is first etched to form the openings and fixed with theadhesion layer 24 (alternatively, the order of the etching step and thefixing step can be interchanged), before it is fixed above the substrate21. After the manufacturing process steps related to the substrate 21are finished, the first lid 25 is fixed above the mask layer 23. In thisway, a manufacturer can perform the manufacturing process steps relatedto the substrate 21 and those related to the first lid 25 in parallelrespectively, and combine the substrate 21 and the first lid 25afterward.

FIG. 4 shows, by cross-section view, a second embodiment of the presentinvention. The MEMS microphone device 30 includes: a substrate 31, aMEMS device region 32, a mask layer 33, an adhesion layer 34, a firstlid 35, a second lid 36, wires 37, and an insulating layer 38. Theinsulating layer 38 is provided below a bottom surface of the second lid36, so as to prevent the wires 37 from direct contact with the secondlid 36. Besides the insulating layer 38, the functionality andmanufacturing process of the second embodiment are not substantiallydifferent from those of the first embodiment and therefore the detailsare omitted.

FIG. 5 shows, by cross-section view, a third embodiment of the presentinvention. As shown in FIG. 5, the MEMS microphone device 40 includes: asubstrate 41, a MEMS device region 42, a mask layer 43, an adhesionlayer 44, a first lid 45, a second lid 46, and wires 47. In the MEMSmicrophone device 40, the substrate 41 includes a first cavity 41 awhich is not limited to the shape shown in the figure. The thirdembodiment is different from the first embodiment in that the wires 47for transmitting signals from the MEMS device region 42 to the outsideof the MEMS microphone device 40 are formed by a T-contact process. Indetail, the wires 47 follow paths along lateral sides of the substrate41 and extend to the bottom surface of the second lid 46. Themanufacturing process steps of this embodiment are similar to those ofthe first embodiment except the step for forming the wires; thosesimilar steps are not redundantly repeated here. Likely, a manufacturercan perform the manufacturing process steps related to the substrate 41and those related the first lid 45 in parallel respectively, and combinethe substrate 41 and the first lid 45 afterward.

The present invention has been described in considerable detail withreference to certain preferred embodiments thereof. It should beunderstood that the description is for illustrative purpose, not forlimiting the scope of the present invention. Those skilled in this artcan readily conceive variations and modifications within the spirit ofthe present invention. For example, the numbers of the metal layers andthe via layers in the present invention are not limited to the numbersshown in the embodiments, but can be any other numbers. As anotherexample, the numbers and shapes of the openings and cavities are notlimited to the numbers and shapes shown in the embodiments, but can beany other numbers and shapes. As another example, the shapes of thewires are not limited to the shapes shown in the embodiments, but can beany other shapes. As yet another example, the manufacturing processsteps of the MEMS microphone devices can be rearranged as long as thecharacteristics of the devices are not affected therefore. Thus, thepresent invention should cover all such and other modifications andvariations, which should be interpreted to fall within the scope of thefollowing claims and their equivalents.

1.-10. (canceled)
 11. A MEMS microphone device, comprising: a substrateincluding a first cavity; a MEMS device region above the substrate,wherein the MEMS device region includes at least one metal layer, atleast one via layer, an insulating material region and a second cavity;a mask layer above the MEMS device region; a first lid having at leastone opening communicating with the second cavity, the first lid beingfixed above the mask layer; and a second lid fixed under the substrate.12. The MEMS microphone device of claim 11, further comprising: anadhesion layer between the first lid and the MEMS device region.
 13. TheMEMS microphone device of claim 11, wherein the first lid is formed by asilicon wafer.
 14. The MEMS microphone device of claim 11, wherein thesecond lid is formed by a silicon wafer.
 15. The MEMS microphone deviceof claim 11, further comprising: at least one wire for transmittingsignals from the MEMS device region to the outside of the MEMSmicrophone device.
 16. The MEMS microphone device of claim 15, whereinthe at least one wire goes through the substrate and the second lid. 17.The MEMS microphone device of claim 15, wherein the at least one wirefollows a path along a lateral side of the substrate and extends to abottom surface of the second lid.